EHang Holdings has unveiled its new electric passenger-grade AAV VT-30, the first in EHang’s product suite that is designed for inter-city transportation. With a hybrid structure, the VT-30 is designed to travel a distance of up to 300km with a designed flight time of up to 100 minutes and is designed as a safe, convenient, efficient, eco-friendly and intelligent air mobility solutions for inter-city travel. As EHang’s long-range flagship product, VT-30 will complement EH216, a product focusing on intra-city air mobility, to further expand the air transportation network and improve the future urban air mobility (UAM) ecosystem.
The VT-30 has a streamlined fuselage with a combined lifting rudder surface at the tail. Equipped with eight propellers on both sides, it has a pair of fixed wings, and a propelling propeller at the rear, which are designed to achieve a maximum balance of hybrid lift and push. The distinctive design enables VT-30 to enjoy the advantage of both vertical and taxi take-off / landing modes, while satisfying the need for longer distance and flight time. Unlike conventional fixed-wing aircrafts, it saves the runway for take-off and landing. Moreover, the tri-redundancy fly-by-wire control system can be flexibly altered into multiple modes, implying a much higher safety level for the aircraft.
The VT-30 is geared towards inter-city travels among city clusters (such as the Guangdong-Hong Kong-Macao Greater Bay Area, Yangtze River Delta, Bohai Rim, etc.), as it is able to carry two passengers from one city to another. VT-30 boasts the merits of eco-friendliness, zero emissions, and low noise, fully aligned with EHang’s principle of green travel. Compared with conventional inter-city transportation modes, VT-30 is expected to provide more efficient, environmentally friendly and low-cost solutions to urban dwellers as well as expanding the capacity of existing UAM services.
So far, VT-30 has conducted vertical take-off and landing, power system and other tests. Moving forward, EHang will continue to conduct various tests and optimisations under different environment conditions, while continuously improving AAV safety and stability, with the goal of accelerating long-distance AAVs to be used in various scenarios such as air commuting, aerial sightseeing, and aerial logistics.